LR-TDDFT analysis of the self-enhancement function classifies coherent versus incoherent magnons in Fe, Ni, and Co, revealing branch coexistence in bcc-Fe and decoherence near the Brillouin zone boundary in fcc-Ni while defining the many-body Stoner spectrum.
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3 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.mtrl-sci 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
A buckled hexagonal Fe2S2 single layer with beta-CuI structure forms via thermal phase transformation from mackinawite, observed by STM and LEED and supported by DFT calculations.
All-electron QSGW implementation in NAO framework for molecules and solids, with benchmarks showing consistency to established reference results.
citing papers explorer
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Classifying magnons in itinerant ferromagnets from linear response TDDFT: Fe, Ni and Co revisited
LR-TDDFT analysis of the self-enhancement function classifies coherent versus incoherent magnons in Fe, Ni, and Co, revealing branch coexistence in bcc-Fe and decoherence near the Brillouin zone boundary in fcc-Ni while defining the many-body Stoner spectrum.
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Emergence of a non-bulk hexagonal Fe$_2$S$_2$ single layer via phase transformation
A buckled hexagonal Fe2S2 single layer with beta-CuI structure forms via thermal phase transformation from mackinawite, observed by STM and LEED and supported by DFT calculations.
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All-electron Quasiparticle Self-consistent GW for Molecules and Periodic Systems within the Numerical Atomic Orbital Framework
All-electron QSGW implementation in NAO framework for molecules and solids, with benchmarks showing consistency to established reference results.